Challenges• Mission-critical applications in military, aerospace, and government (Mag) environments require the highest possible performance at the lowest-size weight power possible, without compromising the stringent security and anti-tamper requirements.• Mission-critical applications are moving from 2-D to 3-D, adding richer content for better, faster intelligence gathering. Richer graphics content, including increased use of video and HD content, requires a new level of performance to meet growing compute-intensive demands.• Economic considerations require that large technology investments be as future-proofed as possible, securing long-term gains in security, efficiency, performance per watt, and other benefits.• Mag personnel require long-lasting, portable devices that enable consistent responsiveness to operational needs, when and where they arise.• Greater optimization of the rising volumes of data must be achieved via improved analytics able to turn rising data volumes into mission value.

Challenges• Mission-critical applications in military, aerospace, and government (Mag) environments require the highest possible performance at the lowest-size weight power possible, without compromising the stringent security and anti-tamper requirements.• Mission-critical applications are moving from 2-D to 3-D, adding richer content for better, faster intelligence gathering. Richer graphics content, including increased use of video and HD content, requires a new level of performance to meet growing compute-intensive demands.• Economic considerations require that large technology investments be as future-proofed as possible, securing long-term gains in security, efficiency, performance per watt, and other benefits.• Mag personnel require long-lasting, portable devices that enable consistent responsiveness to operational needs, when and where they arise.• Greater optimization of the rising volumes of data must be achieved via improved analytics able to turn rising data volumes into mission value.